Mathematical Methods For Surface And Subsurface Hydrosystems
Will be published approx. on 27. February 2007
Book
Hardback
240 pages
978-981-270-040-7 (ISBN)
Description
With the increasing awareness of the heavy burden placed on environmental resources and the need for industry and public institutions to cope with more stringent regulations, this timely book focuses on some specific, but very important, environmental problems, namely, surface and subsurface hydrosystems. Covering state-of-the-art techniques to model such systems, the volume will be of great benefit to all researchers in applied mathematics and environmental engineering.
More details
Series
Language
English
Place of publication
Singapore
Singapore
Target group
Professional and scholarly
Product notice
sewn/stitched
Paper over boards
Dimensions
Height: 230 mm
Width: 162 mm
Thickness: 18 mm
Weight
445 gr
ISBN-13
978-981-270-040-7 (9789812700407)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Content
A Finite Volume Formulation of the Mixed Finite Element Method for Triangular Elements (P Ackerer & A Younes); Finite Element Modeling of Hydrosystems with Fully Saturated, Variably Saturated, and Overland Flows (A Ern); Sharp Front Modeling (P Goblet); Numerical Modeling of Biological Processes: Specificities, Difficulties and Challenges (C Gourlay et al.); Ecological Simulation of Red Tides in Shallow Sea Area (D Wang); Subsurface Pathways of Contaminants to Coastal Waters: Effects of Oceanic Oscillations (L Li); Studies on Retrieval of the Initial Values and Diffusion Coefficient of Water Pollutant Advection and Diffusion Process (T Wang et al.); Application of the Tabu Search Method to the Parameters of Groundwater Simulation Models (J Chen & Z Zhou); Several Problems in the River Networks Hydraulic Mathematics Model (X Xu & D Wang); Study on the Character of Equilibrium Point and Its Impact on the Changing Rate of Phytoplankton Concentration Using a Simple Nutrient-Phytoplankton Model (J Yang et al.); A Numerical Simulation of Thermal Discharge into a Tidal Estuary with FVM (J Zhou et al.).